@@ -8,3 +8,4 @@ odp_shm
odp_system
odp_pktio
odp_buffer
+odp_timer
@@ -6,9 +6,9 @@ AM_LDFLAGS += -static
TESTS_ENVIRONMENT = ODP_PLATFORM=${with_platform}
if ODP_CUNIT_ENABLED
-TESTS = odp_init odp_queue odp_crypto odp_shm odp_schedule odp_pktio_run odp_buffer odp_system
+TESTS = odp_init odp_queue odp_crypto odp_shm odp_schedule odp_pktio_run odp_buffer odp_system odp_timer
check_PROGRAMS = ${bin_PROGRAMS}
-bin_PROGRAMS = odp_init odp_queue odp_crypto odp_shm odp_schedule odp_pktio odp_buffer odp_system
+bin_PROGRAMS = odp_init odp_queue odp_crypto odp_shm odp_schedule odp_pktio odp_buffer odp_system odp_timer
odp_crypto_CFLAGS = $(AM_CFLAGS) -I$(srcdir)/crypto
odp_buffer_CFLAGS = $(AM_CFLAGS) -I$(srcdir)/buffer
endif
@@ -27,3 +27,4 @@ dist_odp_buffer_SOURCES = buffer/odp_buffer_pool_test.c \
buffer/odp_packet_test.c \
odp_buffer.c common/odp_cunit_common.c
dist_odp_system_SOURCES = odp_system.c common/odp_cunit_common.c
+dist_odp_timer_SOURCES = odp_timer.c common/odp_cunit_common.c
new file mode 100644
@@ -0,0 +1,353 @@
+/* Copyright (c) 2014, Linaro Limited
+ * All rights reserved.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+/**
+ * @file
+ */
+
+#include <assert.h>
+#include <unistd.h>
+#include <odp.h>
+#include <odp_timer.h>
+#include <odph_linux.h>
+#include <odph_chksum.h>
+#include "odp_cunit_common.h"
+
+/** @private Timeout range in milliseconds (ms) */
+#define RANGE_MS 2000
+
+/** @private Number of timers per thread */
+#define NTIMERS 2000
+
+/** @private Barrier for thread synchronisation */
+static odp_barrier_t test_barrier;
+
+/** @private Timeout buffer pool handle used by all threads */
+static odp_buffer_pool_t tbp;
+
+/** @private Timer pool handle used by all threads */
+static odp_timer_pool_t tp;
+
+/** @private min() function */
+static int min(int a, int b)
+{
+ return a < b ? a : b;
+}
+
+/* @private Timer helper structure */
+struct test_timer {
+ odp_timer_t tim; /* Timer handle */
+ odp_buffer_t buf; /* Timeout buffer */
+ odp_buffer_t buf2; /* Copy of buffer handle */
+ uint64_t tick; /* Expiration tick or TICK_INVALID */
+};
+
+#define TICK_INVALID (~(uint64_t)0)
+
+/* @private Handle a received (timeout) buffer */
+static void handle_tmo(odp_buffer_t buf, bool stale, uint64_t prev_tick)
+{
+ /* Use assert() for internal correctness checks of test program */
+ assert(buf != ODP_BUFFER_INVALID);
+ if (odp_buffer_type(buf) != ODP_BUFFER_TYPE_TIMEOUT) {
+ /* Not a timeout buffer */
+ CU_FAIL("Unexpected buffer type received");
+ return;
+ }
+ /* Read the metadata from the timeout */
+ odp_timeout_t tmo = odp_timeout_from_buf(buf);
+ odp_timer_t tim = odp_timeout_timer(tmo);
+ uint64_t tick = odp_timeout_tick(tmo);
+ struct test_timer *ttp = odp_timeout_user_ptr(tmo);
+
+ if (tim == ODP_TIMER_INVALID)
+ CU_FAIL("odp_timeout_timer() invalid timer");
+ if (ttp == NULL)
+ CU_FAIL("odp_timeout_user_ptr() null user ptr");
+
+ if (ttp->buf2 != buf)
+ CU_FAIL("odp_timeout_user_ptr() wrong user ptr");
+ if (ttp->tim != tim)
+ CU_FAIL("odp_timeout_timer() wrong timer");
+ if (stale) {
+ if (odp_timeout_fresh(tmo))
+ CU_FAIL("Wrong status (fresh) for stale timeout");
+ /* Stale timeout => local timer must have invalid tick */
+ if (ttp->tick != TICK_INVALID)
+ CU_FAIL("Stale timeout for active timer");
+ } else {
+ if (!odp_timeout_fresh(tmo))
+ CU_FAIL("Wrong status (stale) for fresh timeout");
+ /* Fresh timeout => local timer must have matching tick */
+ if (ttp->tick != tick) {
+ printf("Wrong tick: expected %"PRIu64" actual %"PRIu64"\n",
+ ttp->tick, tick);
+ CU_FAIL("odp_timeout_tick() wrong tick");
+ }
+ /* Check that timeout was delivered 'timely' */
+ if (tick > odp_timer_current_tick(tp))
+ CU_FAIL("Timeout delivered early");
+ if (tick < prev_tick) {
+ printf("Too late tick: %"PRIu64" prev_tick %"PRIu64"\n",
+ tick, prev_tick);
+ CU_FAIL("Timeout delivered late");
+ }
+ }
+
+ /* Use assert() for correctness check of test program itself */
+ assert(ttp->buf == ODP_BUFFER_INVALID);
+ ttp->buf = buf;
+}
+
+/* @private Worker thread entrypoint which performs timer alloc/set/cancel/free
+ * tests */
+static void *worker_entrypoint(void *arg)
+{
+ int thr = odp_thread_id();
+ uint32_t i;
+ unsigned seed = thr;
+ (void)arg;
+
+ odp_queue_t queue = odp_queue_create("timer_queue",
+ ODP_QUEUE_TYPE_POLL,
+ NULL);
+ if (queue == ODP_QUEUE_INVALID)
+ CU_FAIL_FATAL("Queue create failed");
+
+ struct test_timer *tt = malloc(sizeof(struct test_timer) * NTIMERS);
+ if (tt == NULL)
+ perror("malloc"), abort();
+
+ /* Prepare all timers */
+ for (i = 0; i < NTIMERS; i++) {
+ tt[i].tim = odp_timer_alloc(tp, queue, &tt[i]);
+ if (tt[i].tim == ODP_TIMER_INVALID)
+ CU_FAIL_FATAL("Failed to allocate timer");
+ tt[i].buf = odp_buffer_alloc(tbp);
+ if (tt[i].buf == ODP_BUFFER_INVALID)
+ CU_FAIL_FATAL("Failed to allocate timeout buffer");
+ tt[i].buf2 = tt[i].buf;
+ tt[i].tick = TICK_INVALID;
+ }
+
+ odp_barrier_wait(&test_barrier);
+
+ /* Initial set all timers with a random expiration time */
+ uint32_t nset = 0;
+ for (i = 0; i < NTIMERS; i++) {
+ uint64_t tck = odp_timer_current_tick(tp) + 1 +
+ odp_timer_ns_to_tick(tp,
+ (rand_r(&seed) % RANGE_MS)
+ * 1000000ULL);
+ odp_timer_set_t rc;
+ rc = odp_timer_set_abs(tt[i].tim, tck, &tt[i].buf);
+ if (rc != ODP_TIMER_SET_SUCCESS) {
+ CU_FAIL("Failed to set timer");
+ } else {
+ tt[i].tick = tck;
+ nset++;
+ }
+ }
+
+ /* Step through wall time, 1ms at a time and check for expired timers */
+ uint32_t nrcv = 0;
+ uint32_t nreset = 0;
+ uint32_t ncancel = 0;
+ uint32_t ntoolate = 0;
+ uint32_t ms;
+ uint64_t prev_tick = odp_timer_current_tick(tp);
+ for (ms = 0; ms < 7 * RANGE_MS / 10; ms++) {
+ odp_buffer_t buf;
+ while ((buf = odp_queue_deq(queue)) != ODP_BUFFER_INVALID) {
+ /* Subtract one from prev_tick to allow for timeouts
+ * to be delivered a tick late */
+ handle_tmo(buf, false, prev_tick - 1);
+ nrcv++;
+ }
+ prev_tick = odp_timer_current_tick(tp);
+ i = rand_r(&seed) % NTIMERS;
+ if (tt[i].buf == ODP_BUFFER_INVALID &&
+ (rand_r(&seed) % 2 == 0)) {
+ /* Timer active, cancel it */
+ int rc = odp_timer_cancel(tt[i].tim, &tt[i].buf);
+ if (rc != 0)
+ /* Cancel failed, timer already expired */
+ ntoolate++;
+ tt[i].tick = TICK_INVALID;
+ ncancel++;
+ } else {
+ if (tt[i].buf != ODP_BUFFER_INVALID)
+ /* Timer inactive => set */
+ nset++;
+ else
+ /* Timer active => reset */
+ nreset++;
+ uint64_t tck = 1 + odp_timer_ns_to_tick(tp,
+ (rand_r(&seed) % RANGE_MS) * 1000000ULL);
+ odp_timer_set_t rc;
+ uint64_t cur_tick;
+ /* Loop until we manage to read cur_tick and set a
+ * relative timer in the same tick */
+ do {
+ cur_tick = odp_timer_current_tick(tp);
+ rc = odp_timer_set_rel(tt[i].tim,
+ tck, &tt[i].buf);
+ } while (cur_tick != odp_timer_current_tick(tp));
+ if (rc == ODP_TIMER_SET_TOOEARLY ||
+ rc == ODP_TIMER_SET_TOOLATE) {
+ CU_FAIL("Failed to set timer (tooearly/toolate)");
+ } else if (rc != ODP_TIMER_SET_SUCCESS) {
+ /* Set/reset failed, timer already expired */
+ ntoolate++;
+ }
+ /* Save expected expiration tick */
+ tt[i].tick = cur_tick + tck;
+ }
+ if (usleep(1000/*1ms*/) < 0)
+ perror("usleep"), abort();
+ }
+
+ /* Cancel and free all timers */
+ uint32_t nstale = 0;
+ for (i = 0; i < NTIMERS; i++) {
+ (void)odp_timer_cancel(tt[i].tim, &tt[i].buf);
+ tt[i].tick = TICK_INVALID;
+ if (tt[i].buf == ODP_BUFFER_INVALID)
+ /* Cancel too late, timer already expired and
+ * timoeut buffer enqueued */
+ nstale++;
+ if (odp_timer_free(tt[i].tim) != ODP_BUFFER_INVALID)
+ CU_FAIL("odp_timer_free");
+ }
+
+ printf("Thread %u: %u timers set\n", thr, nset);
+ printf("Thread %u: %u timers reset\n", thr, nreset);
+ printf("Thread %u: %u timers cancelled\n", thr, ncancel);
+ printf("Thread %u: %u timers reset/cancelled too late\n",
+ thr, ntoolate);
+ printf("Thread %u: %u timeouts received\n", thr, nrcv);
+ printf("Thread %u: %u stale timeout(s) after odp_timer_free()\n",
+ thr, nstale);
+
+ /* Delay some more to ensure timeouts for expired timers can be
+ * received */
+ usleep(1000/*1ms*/);
+ while (nstale != 0) {
+ odp_buffer_t buf = odp_queue_deq(queue);
+ if (buf != ODP_BUFFER_INVALID) {
+ handle_tmo(buf, true, 0/*Dont' care for stale tmo's*/);
+ nstale--;
+ } else {
+ CU_FAIL("Failed to receive stale timeout");
+ break;
+ }
+ }
+ /* Check if there any more (unexpected) buffers */
+ odp_buffer_t buf = odp_queue_deq(queue);
+ if (buf != ODP_BUFFER_INVALID)
+ CU_FAIL("Unexpected buffer received");
+
+ printf("Thread %u: exiting\n", thr);
+ return NULL;
+}
+
+/* @private Timer test case entrypoint */
+static void test_odp_timer_all(void)
+{
+ odp_buffer_pool_param_t params;
+ odp_timer_pool_param_t tparam;
+ int num_workers = min(odp_sys_cpu_count(), MAX_WORKERS);
+
+ /* Create timeout buffer pools */
+ params.buf_size = 0;
+ params.buf_align = ODP_CACHE_LINE_SIZE;
+ params.num_bufs = (NTIMERS + 1) * num_workers;
+ params.buf_type = ODP_BUFFER_TYPE_TIMEOUT;
+ tbp = odp_buffer_pool_create("tmo_pool", ODP_SHM_INVALID, ¶ms);
+ if (tbp == ODP_BUFFER_POOL_INVALID)
+ CU_FAIL_FATAL("Timeout buffer pool create failed");
+
+#define NAME "timer_pool"
+#define RES (10 * ODP_TIME_MSEC / 3)
+#define MIN (10 * ODP_TIME_MSEC / 3)
+#define MAX (1000000 * ODP_TIME_MSEC)
+ /* Create a timer pool */
+ tparam.res_ns = RES;
+ tparam.min_tmo = MIN;
+ tparam.max_tmo = MAX;
+ tparam.num_timers = num_workers * NTIMERS;
+ tparam.private = 0;
+ tparam.clk_src = ODP_CLOCK_CPU;
+ tp = odp_timer_pool_create(NAME, tbp, &tparam);
+ if (tp == ODP_TIMER_POOL_INVALID)
+ CU_FAIL_FATAL("Timer pool create failed");
+
+ /* Start all created timer pools */
+ odp_timer_pool_start();
+
+ odp_timer_pool_info_t tpinfo;
+ if (odp_timer_pool_info(tp, &tpinfo) != 0)
+ CU_FAIL("odp_timer_pool_info");
+ CU_ASSERT(strcmp(tpinfo.name, NAME) == 0);
+ CU_ASSERT(tpinfo.param.res_ns == RES);
+ CU_ASSERT(tpinfo.param.min_tmo == MIN);
+ CU_ASSERT(tpinfo.param.max_tmo == MAX);
+ printf("Timer pool\n");
+ printf("----------\n");
+ printf(" name: %s\n", tpinfo.name);
+ printf(" resolution: %"PRIu64" ns (%"PRIu64" us)\n",
+ tpinfo.param.res_ns, tpinfo.param.res_ns / 1000);
+ printf(" min tmo: %"PRIu64" ns\n", tpinfo.param.min_tmo);
+ printf(" max tmo: %"PRIu64" ns\n", tpinfo.param.max_tmo);
+ printf("\n");
+
+ printf("#timers..: %u\n", NTIMERS);
+ printf("Tmo range: %u ms (%"PRIu64" ticks)\n", RANGE_MS,
+ odp_timer_ns_to_tick(tp, 1000000ULL * RANGE_MS));
+ printf("\n");
+
+ uint64_t tick;
+ for (tick = 0; tick < 1000000000000ULL; tick += 1000000ULL) {
+ uint64_t ns = odp_timer_tick_to_ns(tp, tick);
+ uint64_t t2 = odp_timer_ns_to_tick(tp, ns);
+ if (tick != t2)
+ CU_FAIL("Invalid conversion tick->ns->tick");
+ }
+
+ /* Initialize barrier used by worker threads for synchronization */
+ odp_barrier_init(&test_barrier, num_workers);
+
+ /* Create and start worker threads */
+ pthrd_arg thrdarg;
+ thrdarg.testcase = 0;
+ thrdarg.numthrds = num_workers;
+ odp_cunit_thread_create(worker_entrypoint, &thrdarg);
+
+ /* Wait for worker threads to exit */
+ odp_cunit_thread_exit(&thrdarg);
+
+ /* Check some statistics after the test */
+ if (odp_timer_pool_info(tp, &tpinfo) != 0)
+ CU_FAIL("odp_timer_pool_info");
+ CU_ASSERT(tpinfo.param.num_timers == (unsigned)num_workers * NTIMERS);
+ CU_ASSERT(tpinfo.cur_timers == 0);
+ CU_ASSERT(tpinfo.hwm_timers == (unsigned)num_workers * NTIMERS);
+
+ /* Destroy timer pool, all timers must have been freed */
+ odp_timer_pool_destroy(tp);
+
+ CU_PASS("ODP timer test");
+}
+
+CU_TestInfo test_odp_timer[] = {
+ {"test_odp_timer_all", test_odp_timer_all},
+ CU_TEST_INFO_NULL,
+};
+
+CU_SuiteInfo odp_testsuites[] = {
+ {"Timer", NULL, NULL, NULL, NULL, test_odp_timer},
+ CU_SUITE_INFO_NULL,
+};
Signed-off-by: Ola Liljedahl <ola.liljedahl@linaro.org> (This document/code contribution attached is provided under the terms of agreement LES-LTM-21309) Cunit test program test/validation/odp_timer.c for the updated timer API. --- test/validation/.gitignore | 1 + test/validation/Makefile.am | 5 +- test/validation/odp_timer.c | 353 ++++++++++++++++++++++++++++++++++++++++++++ 3 files changed, 357 insertions(+), 2 deletions(-) create mode 100644 test/validation/odp_timer.c